CN114162396A

CN114162396A - Drawer type high-speed particle filling machine

Info

Publication number: CN114162396A
Application number: CN202111596441.9A
Authority: CN
Inventors: 胡利平
Original assignee: Zhoushan Jin Qi Food Machinery Co ltd
Current assignee: Zhoushan Jin Qi Food Machinery Co ltd
Priority date: 2021-12-24
Filing date: 2021-12-24
Publication date: 2022-03-11

Abstract

The invention discloses a drawer type high-speed particle filling machine which comprises a main motor, wherein one end of the main motor is provided with a first main transmission belt wheel, the outer wall of the first main transmission belt wheel is wound with a transmission belt, one end of the transmission belt is provided with a second main transmission belt wheel, the side surface of the second main transmission belt wheel is provided with a speed reducer, and the top of the speed reducer is movably provided with a main transmission gear. The opening and closing door in the device adopts radial linear motion, when the opening and closing door moves outwards under the control of the cylinder and the roller control rod and is positioned on the outer rail, the opening and closing door is in an opening state to realize the filling of an empty tank, otherwise, the opening and closing door moves inwards under the control of the cylinder and the roller control rod and is positioned on the inner rail, and the opening and closing door is in a head closing state to not carry out the filling. The radial linear movement of the opening and closing door makes it possible to reduce the arc length between each filling head.

Description

Drawer type high-speed particle filling machine

Technical Field

The invention relates to the technical field of filling machines, in particular to a drawer type high-speed particle filling machine.

Background

KL72GZ drawer type high speed granule filling machine, which is a high speed filling machine specially adapted for filling small granules into cans. It is quantitative through the graduated flask, then the switch door carries out linear motion to reach the requirement of closing the door or opening the door, and set up: the filling mechanism with or without tank can make the granule filled into empty tank continuously and at high speed.

The existing domestic granule filling machine almost completely adopts a swing type switch door, and due to the structural limitation of the mechanism, the filling machine with multiple filling heads is difficult to manufacture, so that the problem of improving the production capacity is limited, and the drawer type high-speed granule filling machine is provided aiming at the problems.

Disclosure of Invention

The invention aims to provide a drawer type high-speed particle filling machine, which aims to solve the problem that the prior art proposed by the background technology almost completely adopts a swing type switch door, and the mechanism is difficult to manufacture into a filling machine with multiple filling heads due to the structural limitation, so that the improvement of the production capacity is limited.

In order to achieve the purpose, the invention provides the following technical scheme: a drawer type high-speed particle filling machine comprises a main motor, wherein a first main transmission belt wheel is installed at one end of the main motor, a transmission belt is wound on the outer wall of the first main transmission belt wheel, a second main transmission belt wheel is arranged at one end of the transmission belt, a speed reducer is installed on the side surface of the second main transmission belt wheel, a main transmission gear is movably installed at the top of the speed reducer, a central gear is installed on the side surface of the main transmission gear in a meshed mode, a large transition gear is installed on the side surfaces of the main transmission gear and the central gear in a meshed mode, a tank inlet and outlet gear is installed on the outer wall of the large transition gear in a meshed mode, a tank inlet and outlet drive plate is installed at the top of the tank inlet and outlet gear, a rotary material cylinder is installed at the top of the central gear, a roller is installed on the side surface of the rotary material cylinder, a switch door is installed at the top of the roller, and a guide rail plate is installed on the outer side of the switch door, the cylinder is installed to the inboard of guide rail plate, the gyro wheel control lever is installed to the one end of cylinder, fixed feed cylinder is installed at the top of switch door.

Preferably, a first transition gear is mounted on the side surface of the single can entering and exiting gear, and a second transition gear is mounted on the side surface of the single can entering and exiting gear.

Preferably, a pinion is mounted on the side surface of the second transition gear, and a first bevel gear is mounted on the top of the pinion.

Preferably, a second bevel gear is mounted at the top of the first bevel gear, and a tank inlet screw is mounted on the side surface of the second bevel gear.

Preferably, the opening and closing door 18 adopts a radial linear motion.

Preferably, the guide track structure allows the control rod to complete within a small arc length.

Compared with the prior art, the invention has the beneficial effects that:

1. in the invention, the switch door in the device adopts radial linear motion, when the switch door moves outwards under the control of the cylinder and the roller control rod and is positioned on the outer track, the switch door is in a door opening state to realize the filling of the empty tank, otherwise, the switch door moves inwards under the control of the cylinder and the roller control rod and is positioned on the inner track, and the switch door is in a head closing state to not carry out the filling. The radial linear motion structure of the switch door makes it possible to reduce the arc length between filling heads, and the swing type switch door of the traditional granule filling machine cannot install multiple filling heads within a small arc length range, so that the diameter of the equipment can be internally provided with the filling heads, and the production capacity of the equipment is greatly improved within the same overall dimension range compared with the traditional granule filling machine.

2. In the invention, the guide rail design of the equipment and the guide rail of the traditional filling machine have unique structures. In the traditional guide rail design of the filling machine, after a previous roller controls the previous roller to move outwards, the next roller can be controlled to move outwards or inwards only after the previous roller completely reaches the outer guide rail, so that the distance between the two rollers is larger than the distance of the transition section of the inner track and the outer track of the guide rail, and the distance between the two rollers is limited to be not too small. The transition of the inner track and the outer track of the guide rail of the device is only larger than the size of the roller. The control rod roller control rod is used for controlling the roller to move outwards, the other control rod roller control rod is used for controlling the roller to move inwards, and the control conversion can be realized only by the distance of one roller. The distance between the two rollers (i.e. the distance between the two filling heads) and the conventional guide rail design is greatly reduced, making it possible to design the apparatus as a multiple filling head, thereby greatly increasing the throughput of the apparatus.

Drawings

FIG. 1 is a schematic side view of a drawer-type high-speed pellet filling machine according to the present invention;

FIG. 2 is a schematic bottom view of the drawer-type high-speed granule filling machine according to the present invention;

FIG. 3 is a schematic view of a portion of a drawer-type high speed pellet filling machine of the present invention;

fig. 4 is a schematic view of a drawer-type high-speed granule filling machine according to the present invention.

In the figure:

1. a main motor; 2. a primary driving belt wheel I; 3. a second main transmission belt wheel; 4. a main drive gear; 5. a sun gear; 6. a large transition gear; 7. a tank inlet and outlet gear; 8. a first transition gear; 9. a second transition gear; 10. a pinion gear; 11. a first bevel gear; 12. a second bevel gear; 13. a tank inlet screw rod; 14. a canister access dial; 15. fixing the charging barrel; 16. rotating the charging barrel; 17. a roller; 18. opening and closing the door; 19. a cylinder; 20. A roller control lever; 21. a speed reducer; 22. a guide rail plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to FIGS. 1-3: a drawer type high-speed particle filling machine comprises a main motor 1, a main driving belt wheel 2 is installed at one end of the main motor 1, a driving belt is wound on the outer wall of the main driving belt wheel 2, a main driving belt wheel 3 is arranged at one end of the driving belt, a speed reducer 21 is installed on the side surface of the main driving belt wheel 3, a main driving gear 4 is movably installed at the top of the speed reducer 21, a central gear 5 is installed on the side surface of the main driving gear 4 in a meshed mode, a large transition gear 6 is installed on the side surfaces of the main driving gear 4 and the central gear 5 in a meshed mode, a tank inlet and outlet gear 7 is installed on the outer wall of the large transition gear 6 in a meshed mode, a tank inlet and outlet driving plate 14 is installed at the top of the tank inlet and outlet gear 7, a rotary charging barrel 16 is installed at the top of the central gear 5, a roller 17 is installed on the side surface of the rotary charging barrel 16, a switch door 18 is installed at the top of the roller 17, a guide rail plate 22 is installed on the outer side of the switch door 18, the cylinder 19 is installed to the inboard of guide rail plate 22, gyro wheel control lever 20 is installed to the one end of cylinder 19, fixed feed cylinder 15 is installed at the top of switch door 18, switch door 18 in this equipment adopts radial linear motion, and when it outwards moved under the control of cylinder 19, gyro wheel control lever 20, and when being in the outer track, switch door 18 is in the state of opening the door and realizes the filling to empty can, otherwise, switch door 18 inwards moved under the control of cylinder 19, gyro wheel control lever 20, and when being in the inner track, switch door 18 is in the head closed state and does not carry out the filling. The radial linear motion structure of the switch door 18 enables the arc length between each filling head to be reduced to be possible, while the swing switch door of the traditional granule filling machine cannot be provided with a plurality of filling heads within a smaller arc length range, so that the equipment can be provided with 72 filling heads within 2160 in diameter, thereby greatly improving the production capacity of the equipment within the same overall dimension range compared with the traditional granule filling machine, the switch door 18 adopts radial linear motion, and the guide rail structure enables the control rod to be completed within a smaller arc length range, thereby enabling more filling heads to be arranged within a certain diameter range. The structural design of the rail guide enables the inner and outer guide rails (opening and closing states) of the control rod to be converted in a smaller arc length range.

As shown in fig. 1 and 3, a first transition gear 8 is arranged on the side surface of the single in-out tank gear 7, a second transition gear 9 is arranged on the side surface of the single in-out tank gear 7, and the guide rail design in the device and the guide rail of the traditional filling machine have unique structures. In the traditional guide rail design of the filling machine, after a previous roller controls the previous roller to move outwards, the next roller can be controlled to move outwards or inwards only after the previous roller completely reaches the outer guide rail, so that the distance between the two rollers is larger than the distance of the transition section of the inner track and the outer track of the guide rail, and the distance between the two rollers is limited to be not too small. The transition of the inner track and the outer track of the guide rail of the device is only larger than the size of the roller. The control rod roller control rod 20 is in a state that the control roller moves outwards, the other control rod roller control rod 20 is in a state that the control roller moves inwards, and the control conversion can be realized only by the distance of one roller. The distance between the two rollers, i.e. the distance between the two filling heads, is considerably reduced compared to conventional guide rail designs, so that it is possible to design the apparatus as a multiple filling head, thereby considerably increasing the throughput of the apparatus.

As shown in fig. 1-3, a pinion 10 is mounted on the side surface of the second transition gear 9, a first bevel gear 11 is mounted on the top of the pinion 10, the connection between the pinion 10 and the second transition gear 9 is used for transmission, and the first bevel gears 11 are also connected with each other to provide effective transmission effect.

As shown in figure 1, a second bevel gear 12 is mounted at the top of a first bevel gear 11, a tank inlet screw 13 is mounted on the side surface of the second bevel gear 12, effective transmission can be provided by connecting the first bevel gear 11 with the second bevel gear 12, and the purposes of separating and feeding tanks can be achieved through the tank inlet screw 13.

When the drawer type high-speed particle filling machine is used, firstly, the power of a main motor 1 drives a main transmission gear 4 to rotate through a main transmission belt wheel I2, a main transmission belt wheel II 3 and a speed reducer 21, and the rotation of the main transmission gear 4 drives central gears of three gear central gears 5 and large transition gears 6 on the left side and the right side to rotate. The large transition gear of the left large transition gear 6 in turn drives the rotation of the canister inlet and outlet gear 7, thereby driving the rotation of the canister inlet and outlet dial 14. The large transition gear 6 on the right drives the can outlet gear in and out of the can gear 7 to rotate, so that the can outlet dial plate is driven to rotate in and out of the can dial plate 14, meanwhile, the small gear 10 is driven by the first transition gear 8 and the second transition gear 9, and then the can inlet screw 13 is driven to rotate through the transmission of the first bevel gear 11 and the second bevel gear 12, so that the purposes of separating and feeding cans are achieved. The rotation of the central gear 5 drives the rotation of the rotary material cylinder 16 of the rotary material cylinder, the roller 17 and the door opening and closing switch door 18 which are arranged on the rotary material cylinder 16 also rotate along with the rotation, and in the rotating process, the roller 17 is controlled by the cylinder 19 and the roller control rod 20 to open and close the door, so that whether the cans are filled or not is finished, and the purposes of filling with the cans and not filling without the cans are achieved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. A drawer type high-speed particle filling machine comprises a main motor (1), and is characterized in that: a first main transmission belt wheel (2) is installed at one end of the main motor (1), a transmission belt is wound on the outer wall of the first main transmission belt wheel (2), a second main transmission belt wheel (3) is arranged at one end of the transmission belt, a speed reducer (21) is installed on the side face of the second main transmission belt wheel (3), a main transmission gear (4) is movably installed at the top of the speed reducer (21), a central gear (5) is installed on the side face of the main transmission gear (4) in a meshed mode, a large transition gear (6) is installed on the side faces of the main transmission gear (4) and the central gear (5) in a meshed mode, a tank inlet and outlet gear (7) is installed on the outer wall of the large transition gear (6) in a meshed mode, a tank inlet and outlet driving plate (14) is installed at the top of the tank inlet and outlet gear (7), a rotary charging barrel (16) is installed at the top of the central gear (5), and idler wheels (17) are installed on the side face of the rotary charging barrel (16), switch door (18) are installed at the top of gyro wheel (17), guide rail plate (22) are installed in the outside of switch door (18), cylinder (19) are installed to the inboard of guide rail plate (22), gyro wheel control lever (20) are installed to the one end of cylinder (19), fixed feed cylinder (15) are installed at the top of switch door (18).

2. The drawer-type high speed particulate filling machine of claim 1 wherein: the side surface of the single in-out tank gear (7) is provided with a first transition gear (8), and the side surface of the single in-out tank gear (7) is provided with a second transition gear (9).

3. The drawer-type high speed particulate filling machine of claim 2 wherein: a pinion (10) is installed on the side face of the second transition gear (9), and a first bevel gear (11) is installed at the top of the pinion (10).

4. The drawer-type high speed particulate filling machine of claim 3 wherein: a second bevel gear (12) is installed at the top of the first bevel gear (11), and a tank feeding screw rod (13) is installed on the side face of the second bevel gear (12).

5. The drawer-type high speed particulate filling machine of claim 4 wherein: a connecting rod is arranged between the second bevel gear (12) and the tank inlet screw (13), and the outer wall of the tank inlet screw (13) is threaded.

6. The drawer-type high speed particulate filling machine of claim 1 wherein: the pipeline is installed to the bottom of fixed feed cylinder (15), set up to leaking hopper-shaped between the bottom of fixed feed cylinder (15) and the pipeline.

7. The drawer-type high speed particulate filling machine of claim 1 wherein: the bottom fixed mounting of main motor (1) has the fixing base, the bottom fixed mounting of fixing base has the frame.

8. The drawer-type high speed particulate filling machine of claim 7 wherein: the bottom fixed mounting of frame has the supporting leg, the bottom fixed mounting of supporting leg has the blotter.

9.The drawer-type high speed particulate filler of claim 1The method is characterized in that: the opening and closing door (18) adopts a radial Move to a straight line.

10.The drawer-type high speed particulate filling machine of claim 1 wherein: the guide rail structure enables control The rod completes over a small arc length.